KR101252294B1 - Transparent information window - Google Patents

Abstract

Since the transparent information transmission window according to the present invention can display information in a transparent state, it is possible to display various information without spatial constraints without disturbing the field of view. In addition, it is possible to wirelessly transmit the display information to the mobile terminal of the people, so that even if you leave the display place, people can be provided with detailed information about the product through their mobile terminal.

Transparent, display, wireless, windows, information

Description

Transparent information window

The present invention relates to a transparent information transmission window, and more particularly, it is possible to display necessary information without disturbing the field of view, and to transmit display information wirelessly so that people can check display information through their mobile terminals. A transparent information transfer window.

Recently, a display device is installed in a building, a car, various structures, and the like to display information such as an image, a video, a text, and the like on the display device to increase the advertising effect.

However, since the display device is generally manufactured in an opaque form, it takes up a lot of space visually and spatially, which causes a problem in that the installation target and the installation position are limited.

For example, a display device may be installed only in a corner of the object where visibility is essential, such as a show window of a store, a car glass, a screen door of a subway, a bus stop signage, and the like, and the size of the display device. If is large should be installed in a separate billboard.

In addition, in the case of a display device installed on a rooftop of a building or a subway platform, it is not easy for people to be motivated by only looking at the product information displayed for a short time waiting for a bus / subway, even if they are motivated to purchase the display device. If you leave the place there is a problem that you can no longer receive the product information.

In addition, in recent years, as the desire of consumers to watch a larger screen is increased, the display device is being enlarged. Accordingly, a display means capable of increasing the size of the screen and not obstructing the field of view is required.

Accordingly, the present invention has been made to solve the above problems, an object of the present invention is to provide a transparent information transmission window that can display the necessary information without spatial constraints without disturbing the field of view.

Another object of the present invention is to provide a transparent information transmission window which can transmit display information wirelessly so that people can check necessary information even through their mobile terminals.

In order to achieve the above object, a transparent information transmission window according to an embodiment of the present invention, a transparent display for displaying information in a transparent state; A driver which applies a driving signal to the transparent display; A wireless communication unit for wirelessly transmitting and receiving information with an external terminal; A memory unit in which display information is stored; And a control unit controlling the driving unit, the wireless communication unit, and the memory unit, wherein the transparent display, the driving unit, the wireless communication unit, the memory unit, and the control unit include a transparent electrode and a transparent oxide thin film transistor. The transparent display, the driving unit, the wireless communication unit, the memory unit, and the control unit are electrically connected to each other through a transparent wiring made of a transparent electrode.

Since the transparent information transfer window according to the present invention can display information while maintaining a transparent state, it is possible to display various information without spatial constraints without disturbing the field of view.

In addition, the transparent information transmission window according to the present invention can wirelessly transmit the display information to the mobile terminal of the people, so that people can be provided with detailed information about the product through their mobile terminal even if you leave the display location have.

Hereinafter, a transparent information transmission window according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating a transparent information transmission window 100 according to an embodiment of the present invention.

As shown in Figure 1, the transparent information transmission window 100 according to an embodiment of the present invention can display information while maintaining a transparent state, thereby providing a variety of information without disturbing the view of people can do. In addition, the transparent information transfer window 100 according to an embodiment of the present invention may wirelessly transmit display information to a portable terminal (mobile phone, PDA, etc.) carried by people.

The transparent information transfer window 100 may include a transparent display 110 for displaying information such as an image, a video, a text, and the like in a transparent state, a driver 130 for applying a driving signal to the transparent display 110, and an external device. A wireless communication unit 150 for transmitting and receiving information wirelessly with a terminal, a memory unit 170 for storing information displayed on the transparent display 110 or information transmitted and received through the wireless communication unit 150, and the driving unit ( 130, a controller 190 for controlling the wireless communication unit 150 and the memory unit 170.

Here, the driving unit 130, the wireless communication unit 150, the memory unit 170, and the control unit 190, including the transparent display 110, are all composed of transparent electronic devices. A plurality of wirings for electrically connecting the elements are also composed of the transparent wiring 140.

2A and 2B illustrate an example of a transparent display in FIG. 1.

2A and 2B, the transparent display 110 includes a transparent back plane 110a having a lower structure and a transparent light emitting unit 110b having an upper structure, and the transparent light emitting unit 110b. Is composed of a transparent organic light emitting diode (OLED) 111 or an electrochromic device 113.

The transparent OLED 111 and the transparent electrochromic device 113 will be briefly described as follows to help understanding of the present invention.

First, referring to FIG. 2A, the transparent OLED 111 combines holes injected from an anode and electrons injected from a cathode in an organic emission layer to form an exciton, and the exciton emits energy while emitting energy. Has a structure. Thus, the transparent OLED 111 can display information on both sides.

Next, referring to FIG. 2B, when the transparent electrochromic device 113 maintains a transparent state and a voltage is applied to the anode electrode and the cathode electrode, the electrochromic layer is subjected to a reversible redox reaction by electrons supplied from the electrolyte layer. It is raised and colored. Accordingly, the transparent electrochromic device 113 may also display information on both surfaces.

Both the transparent OLED 111 and the transparent electrochromic device 113 are driven by the transparent oxide thin film transistor 115 included in the transparent backplane 110a, and the transparent oxide thin film transistor 115 will be described in more detail. Is as follows.

The transparent oxide thin film transistor 115 includes a source electrode S, a drain electrode D, a gate electrode G, a semiconductor channel layer L1, and a gate insulating layer L2, all of which are optically transparent. It is formed of a material having a.

In more detail, the source electrode S, the drain electrode D, and the gate electrode G have In-Sn-O and In-Zn- having high light transmittance and low resistivity in the visible light region. It is formed of a transparent oxide layer of O, Al-Zn-O, Ga-Zn-O, SnO ₂ : F, Sn-Sb-O series. In some cases, a very thin metal layer of 20 nm or less may be further formed on the transparent oxide layer.

The semiconductor channel layer L1 is formed of a transparent oxide layer including any one of In, Sn, Ga, Zn, Cd, Al, and Ti. The gate insulating layer L2 may be formed of a transparent inorganic insulating layer including any one of Al ₂ O ₃ , SiO ₂ , HfO ₂ , ZrO ₂ , and SiNx, or may be polyimide or PVP (poly p-vinyl phenol). ), And is formed of a transparent organic insulating layer containing any one of parylene.

In the present invention, a transparent OLED and a transparent electrochromic device are used as the transparent display device, but it is also possible to use other display devices such as liquid crystal displays in some cases.

Referring back to FIG. 1, the controller 190 converts display information stored in the memory unit 170 according to driving conditions and resolutions of the transparent display 110 to output a control signal, and the driving unit 130. The gate driving signal and the source driving signal are applied to the transparent display 110 according to the control signal from the controller 190.

The wireless communication unit 150 wirelessly receives information from an external terminal and stores the information in the memory unit 170 or stores information stored in the memory unit 170 in accordance with a control signal from the controller 190 to an external terminal. Transmit wirelessly. Here, the memory unit 170 is preferably composed of a transparent electrochromic device or a transparent ferroelectric device having a memory function.

As described above, the transparent display 110, the driving unit 130, the wireless communication unit 150, the memory unit 170, and the control unit 190 are all composed of transparent electronic devices. Transparent electrodes and transparent oxide thin film transistors are essentially included for input and output of control signals. In addition, the transparent wiring 140 for electrical connection between the transparent electronic devices is also composed of a transparent electrode.

Therefore, in order for the transparent information transfer window 100 including the transparent electronic devices to operate properly, the transparent oxide thin film transistor and the transparent electrode included in the transparent electronic devices must satisfy the following conditions.

First, the transparent oxide thin film transistor used in the present invention should have a fast response speed while maintaining a transparent state.

To this end, in the present invention, a transparent oxide layer having a light transmittance of 80% or more in the visible region and a fast field effect mobility of 5 cm ² / Vs or more is used as a semiconductor channel layer of the transparent oxide thin film transistor.

Here, it is preferable that the transparent oxide layer used as a semiconductor channel layer contains any one of In, Sn, Ga, Zn, Cd, Al, Ti.

Next, the transparent oxide thin film transistor used in the present invention should not be degraded by ultraviolet rays. This is because the transparent information transmission window 100 of the present invention has a high possibility of being exposed to a light source including sunlight or ultraviolet light for a long time due to the function of information transmission.

To this end, in the present invention, as shown in FIG. 3, a transparent UV blocking layer 120 is formed on the front and the rear of the transparent information transmission window 100 to prevent ultraviolet rays, and thus, the transparent oxide thin film used in the transparent information transmission window 100. The transistor is not degraded by ultraviolet rays.

Here, the transparent UV blocking layer 120 may be formed by adhering a polymer film having a UV blocking effect to the front and rear of the transparent information transmission window 100, or may be formed by coating a UV blocking material.

Finally, the transparent electrode used in the present invention should be transparent and have low resistance.

To this end, in the present invention, a transparent oxide layer having a sheet resistance of 4 Ω / □ or less while having a light transmittance of 70% or more in the visible light region is used as the transparent electrode.

Here, the transparent oxide layer used as the transparent electrode is a transparent oxide of In-Sn-O, In-Zn-O, Al-Zn-O, Ga-Zn-O, SnO ₂ : F, Sn-Sb-O series It is preferable that it is a layer. In some cases, a multilayer thin film having an oxide / metal / oxide structure in which a transparent metal thin film having a thickness of 20 nm or less is formed between two transparent oxide layers may be used as the transparent electrode, and a thin metal having a width of 5 μm or less on the transparent oxide layer may be used. It is also possible to use those in which the thin film is formed only in a predetermined portion.

Such a transparent electrode may be used as a wiring electrode for supplying power and electrical signals over a relatively long distance, and may also be used as a source / drain / gate electrode of a transparent oxide thin film transistor. In this case, the wiring electrode and the source / drain / gate electrode of the transparent oxide thin film transistor may have the same structure, but the wiring electrode and the source / drain / gate electrode do not necessarily have the same structure.

In the present embodiment, the case in which the transparent electronic elements constituting the information transmission window are entirely transparent is described, but it is also possible to form some opacity within a range that does not significantly impair the field of view securing function.

The transparent information transfer window of the present invention configured as described above may be usefully used in various fields as described below.

For example, when the transparent information transmission window according to an embodiment of the present invention is installed in a show window of a store or a glass window of a merchandise showcase, information about a product may be displayed without obstructing the view. When installed on a car glass, information about geography and traffic can be displayed without obstructing the view, and when installed on a bus guide sign, the bus route, dispatch time, first / last train time, etc. can be displayed without obstructing the view. The information of can be displayed.

As another example, when the transparent information transmission window according to an embodiment of the present invention is installed in a partition of an office, various information may be displayed on both sides of the partition together with a partition function.

As another example, when the transparent information transmission window according to an embodiment of the present invention is installed in the screen door of the subway platform, the information may be displayed while people wait for the subway together with the prevention of the fall accident.

More specifically, while the passenger is waiting for the train at the platform, a transparent information transmission window installed on the screen door displays the advertisement and stops the display and remains transparent when the train enters the platform to ensure the passenger's vision. Everyone can get on the train and display the ad again when the door is closed.

In particular, the transparent information transmission window installed on the screen door may wirelessly transmit an internet address for obtaining information on the advertisement product or detailed information of the advertisement product to a portable terminal (mobile phone, PDA, etc.) carried by the passenger. Accordingly, even after boarding a train, passengers can take a detailed look at the information of the corresponding goods by using their mobile terminal.

Therefore, in the related art, when people move away from the display place, the information on the product could not be checked any more. However, according to the present invention, detailed information on the product can be checked even if the user moves out of the display place. It is possible to provide product information.

So far, the present invention has been described based on the preferred embodiments. However, embodiments of the present invention is provided to more fully describe the present invention to those skilled in the art, the scope of the present invention is not limited to the above embodiments, various other Of course, the shape can be modified.

1 is a diagram illustrating a transparent information transmission window according to an embodiment of the present invention.

2A and 2B illustrate an example of a transparent display in FIG. 1.

FIG. 3 is a view illustrating a transparent ultraviolet blocking layer for blocking ultraviolet rays on the front and rear surfaces of the transparent information transmission window in FIG. 1.

Description of the Related Art [0002]

100: transparent information transfer window 110: transparent display

110a: transparent backplane 110b: transparent light emitting portion

111: transparent OLED 113: transparent electrochromic device

115: transparent oxide thin film transistor

L1: semiconductor channel layer L2: gate insulating layer

120: transparent UV blocking layer

130: drive unit 140: transparent wiring

150: wireless communication unit 170: memory unit

190:

Claims (8)

A transparent display for displaying information in a transparent state; A driver which applies a driving signal to the transparent display; A wireless communication unit for wirelessly transmitting and receiving information with an external terminal; A memory unit in which display information is stored; And A control unit for controlling the driving unit, the wireless communication unit and the memory, The transparent display, the driver, the wireless communication unit, the memory unit and the control unit are composed of a transparent electronic device including a transparent electrode and a transparent oxide thin film transistor, The transparent display, the driving unit, the wireless communication unit, the memory unit and the control unit are electrically connected to each other through a transparent wiring made of a transparent electrode, The semiconductor channel layer of the transparent oxide thin film transistor is formed of a transparent oxide layer containing any one of In, Sn, Ga, Zn, Cd, Al, Ti, The semiconductor channel layer of the transparent oxide thin film transistor has a light transmittance of 80% or more in the visible light region and has a field effect mobility of 5 cm ² / Vs or more. The method of claim 1, The transparent display is a transparent information transmission window, characterized in that it comprises a transparent OLED or a transparent electrochromic device capable of displaying information on the front and back. delete delete The method of claim 1, Source / drain / gate electrodes of the transparent electrode and the transparent oxide thin film transistor are In-Sn-O, In-Zn-O, Al-Zn-O, Ga-Zn-O, SnO ₂ : F, Sn-Sb- Transparent information transmission window, characterized in that formed of a transparent oxide layer containing any one of O. 6. The method of claim 5, And the source / drain / gate electrodes of the transparent electrode and the transparent oxide thin film transistor have a sheet resistance of 4 Ω / □ or less while having a light transmittance of 70% or more in a visible light region. The method of claim 1, The gate insulating layer of the transparent oxide thin film transistor is formed of a transparent inorganic insulating layer containing any one of Al ₂ O ₃ , SiO ₂ , HfO ₂ , ZrO ₂ , SiNx, or polyimide, PVP (poly p-vinyl phenol) ), A transparent information transmission window, characterized in that formed of a transparent organic insulating layer containing any one of parylene. The method of claim 1, And a transparent ultraviolet blocking layer formed on a front surface and a rear surface of the transparent information transmission window to protect the transparent oxide thin film transistor from ultraviolet rays.

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